Question

Ritu wants to make a trapezium such that \(AB\) is parallel to \(CD\). \(\angle ABC=90^\circ\) and \(\angle BAD=45^\circ\). Lengths: \(CD=5\ \mathrm{cm}\) and \(BC=4\ \mathrm{cm}\). Find the area of the trapezium.

• A. \(20\ \mathrm{cm}^2\)
• B. None of these
• C. \(28\ \mathrm{cm}^2\)
• D. \(24\ \mathrm{cm}^2\)

Hint:

When one leg is perpendicular to the bases in a trapezium, that leg is the height}. Use coordinates or projections with the given angle to recover the unknown base.

Answer 1

The Correct Option is C

Step 1: Height of the trapezium
Since \(\angle ABC=90^\circ\) and \(AB\parallel CD\), \(BC\) is perpendicular to both bases \(⇒\) height \(h=BC=4\ \mathrm{cm}\).
Step 2: Find the other base \(AB\)
Place \(A(0,0)\), let \(AB=x\) so \(B(x,0)\). Since \(CD\parallel AB\) and \(BC=4\), take \(C(x,-4)\) and \(D(x-5,-4)\) (because \(CD=5\)).
Vector \(\overrightarrow{AD}=(x-5,-4)\). Given \(\angle BAD=45^\circ\), slope magnitude of \(AD\) is \(|-4/(x-5)|=\tan 45^\circ=1 \(⇒\) |x-5|=4\).
Choose \(x-5=4\) (keeps vertices in order) \(⇒ x=9 \(⇒\) AB=9\ \mathrm{cm}\).
Step 3: Area
\(\displaystyle \text{Area}=\frac{(AB+CD)}{2}\times h=\frac{(9+5)}{2}\times 4=7\times 4=28\ \mathrm{cm}^2.\)